Switching regulator power supply including fast turnoff means for switching transistor

ABSTRACT

A pulse transformer is added to a switching regulator power supply by placing its primary in series with the commutating diode and its secondary between the emitter and the base of the switching transistor through a bias resistor. When the switching transistor starts to turn off, a pulse from the transformer helps turn off the switching transistor faster by removing the stored charge from the base, thus reducing power dissipation in the transistor.

Uited States atent Inventor John H. Gliever San Jose, Calif.

Appl No. 21,116

Filed Mar. 19, 1970 Patented Aug. 17, 1971 Assignee Hewlett-Packard Company Palo Alto, Calif.

SWITCHING REGULATOR POWER SUPPLY INCLUDING FAST TURNOFF MEANS FOR SWITCHING TRANSISTOR 6 Claims, 2 Drawing Figs.

US. Cl 323/22 T, 323/D1G. 1

Int. Cl 605i 1/56 Field 0! Search 307/297;

323/DIG. 1,18,19, 22 T, 38

[56] References Cited UNITED STATES PATENTS 3,368,139 2/1968 Wuerflein 323/22 T 3,383,584 5/1968 Atherton 323/DIG. 1 3,462,643 8/1969 Turner et a1. 323/22 '1 3,473,049 10/ 1969 Alexander 307/297 X Primary Examiner-Wi1liam I-l. Beha, Jr. Assistant Examiner-A. D. Pellinen Attorney-A. C. Smith ABSTRACT: A pulse transformer is added to a switching regulator power supply by placing its primary in series with the commutating diode and its secondary between the emitter and the base of the switching transistor through a bias resistor. when the switching transistor starts to turn off, a pulse from the transformer helps turn off the switching transistor faster by removing the stored charge from the base, thus reducing power dissipation in the transistor.

VARIABLE DUTY- CYCLE PULSE GENERATOR swrrcumo'nscutxroii OWER. SUPPLY rNcLumNo FAST runNorr MEANS FOR swrrciuNc TRANSISTOR BACKGROUND AND'SUMMARY OF THE INVENTION switching regulatorpower supply is comprised of a variable pulse width pulse generator, aswitch, a filter and a feedusually to kHz. This type of power supply is more efficient than one employing a variable resistance pass element, such as a'transistor, because the switch is either a short or an opencircuit and thus dissipates no power, in the ideal case.

A power transistor is commonly used as-the switch, but for high switching speeds and high levels ofcurrent, the transistor dissipates more power than an ideal switch because of the finite amount of time required to turn the transistor off. The turnoff time is primarily determined by the'amount of time necessary for the stored charge in the base region to bleed off after the bias current has been removed from the base. in the preferred embodiment of the present invention the primary of a pulse transformer is placed .in series with the commuting diode and the secondary is connected between the base and the emitter of the transistor through a bias resistor. When the pulse generator signal falls and the transistor starts to turn off, the ,commutating diode turns on to keep current flowing through the filter; and this current passing through the pulse generator primary generates a voltage spike in the secondary. The transformer is phased such that a voltage'that is negative with respect to the emitter is placed on the base, and this negative voltage draws the stored charge outof the base, thus'turning the transistor off more quickly, and reducing dissipation.

DESCRIPTION OF THE DRAWINGS H0. 1 is a schematic diagram of the preferred embodiment of the invention.

FIG. 2 is a diagram of the waveforms applied to the base of the transistor in the preferred embodiment.

DESCRIPTION OF THE PREFERRED EMBODIMENT I connected between emitter 13 and the cathode of diode 22.

Referring. to FIG. 2, waveform 36 is applied to base 11 by pulse generator 14 on wire 35 and waveform 38 is applied to base 11 by secondary 20 of pulse transformer 16 on wire 34 through resistor 32. With reference to FIGS. 1 and 2, assume that at time 48 pulse 36 on wire 35 is at current level 40, that is, current is being sourced'to base 11 by pulse generator 14 and the transistor is conducting. At current level 42 pulse generator 14 is sourcing zero current. Current is flowing out of .emitter 13 through inductor 24 to supply charge to capacitor '26 and power to load 30. Act time 50, FIG. 2, the output level of pulse generator 14, waveform 36, falls to zero current and transistor 12 starts to turn off. As the current drops through inductor 24, a back EMF will appear across it, which will forward bias diode 22, and current will be supplied to inductor 24 through diode 22. The sudden surge of current through primary 18 of :pulse transformer 16 will generate a voltage ulse in secondary 20 whichis negative wi respect to the v0 tage on emitter 13-due to the phasing of the windings of pulse transformer 16. Level 44in FIG. 2 is at approximately the same level as emitter 13, and at time 50, base 11 will drop to level 46. The stored charge in base 11 will be drained out quickly, thus stopping the conduction in transistor 12. After-theinitial surge of current diode 22 and primary 18, waveform will rise back to level 44. Attime 52 the waveform 36 of pulse generator 14 again rises to positive voltage level40 and transistor 12 is turned on, back biasing diode 22 and supplying current to inductor 24. i 1

It should be understood that equivalent circuits within the scope of this invention can be built with different polarity power sources and transistors than anyoneskilled in the art.

lclaim:

1. In an electronic apparatus including:

a signal source:

a switching means connected in series with the signal source and having a control input to govern the conductivity of the switching means: g

an inductor connected'in series with the switching means:

a load connected in, series with theinductor and the signal source: and a unidirectional conducting device connected in parallel with the series combination of the inductor and the load: an improvement comprising:

a transformer having a primary and'a secondary winding,

- the primary winding of the transformer being connected to the unidirectional conducting device for sensing changes in the current flowing through the unidirectional conducting device: and the secondary winding of the transformer being connected between the switching means control input and the junction between the switching means and the inductor for applying a signal to said control input to alter the conductivity of the switching means in response to a change in the current flowing through the unidirectional conducting device.

2. An electronic apparatus as in claim 1 wherein:

the switching means is a transistor having a base electrode,

there being a signal path between the base and the secondary, the base forming the control input.

3. An electronic apparatus as in claim 2 wherein:

the signal source is a source of DC power and the apparatus is a switching regulator power supply.

4. A switching regulator power supply as in claim 3 wherein:

there is a capacitor in parallel with the load.

5. A switching regulator power supply as in claim 3 wherein:

the signal path between the base and the secondary is a resister.

6. A switching regulator power supply as in claim 3 wherein:

a variable pulse width pulse generator supplies a control signal to the control input.

those shownin FIG. 1 by UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No. 3 ,600 ,666 Dated August 17 197] Inventor( John H, GI IEVEL It is certified that error appears in the above-identified patent and that said Letters Patent are hereby corrected as shown below:

C01 umn I I ine 9, "one empIoying" should read The line 29, "commuting" should read commutating C01 umn 2, I ine 3 "Act" should read At Signed and sealed this 1 8th day of January 1 972.

(SEAL) Attest:

EDWARD M.FLETCHER,JR. ROBERT GOT'ISCHALK Attesting Officer Ac ting Commissioner of Patents )RM PO-IOSO (10-69) USCOMM-DC 60376-P69 IGOnIn u. r r 

1. In an electronic apparatus including: a signal source: a switching means connected in series with the signal source and having a control input to govern the conductivity of the switching means: an inductor connected in series with the switching means: a load connected in series with the inductor and the signal source: and a unidirectional conducting device connected in parallel with the series combination of the inductor and the load: an improvement comprising: a transformer having a primary and a secondary winding, the primary winding of the transformer being connected to the unidirectional conducting device for sensing changes in the current flowing through the unidirectional conducting device: and the secondary winding of the transformer being connected between the switching means control input and the junction between the switching means and the inductor for applying a signal to said control input to alter the conductivity of the switching means in response to a change in the current flowing through the unidirectional conducting device.
 2. An electronic apparatus as in claim 1 wherein: the switching means is a transistor having a base electrode, there being a signal path between the base and the secondary, the base forming the control input.
 3. An electronic apparatus as in claim 2 wherein: the signal source is a source of DC power and the apparatus is a switching regulator power supply.
 4. A switching regulator power supply as in claim 3 wherein: there is a capacitor in parallel with the load.
 5. A switching regulator power supply as in claim 3 wherein: the signal path between the base and the secondary is a resistor.
 6. A switching regulator power supply as in claim 3 wherein: a variable pulse width pulse generator supplies a control signal to the control input. 